This is my first attempt at using (what I understand to be) dynamic programming. I'm trying to tackle this interesting problem: A* Admissible Heuristic for die rolling on grid

The `q`

function attempts to recurse backwards, keeping track of the orientation of the die (`visited`

is technically the next cell, but "visited" in terms of the recursion to prevent infinite back and forth loops). Although I'm not sure if the answer it provides is the best solution, it does seem to provide an answer, nonetheless.

I'm hoping for ideas about how to implement some kind of memoization to speed it up -- I tried unsuccessfully to implement something like `memoized_fib`

(seen here) with `lookup`

instead of `!!`

, mapping `q`

to a list of combinations of `(i,j)`

but got `Nothing`

, no pun intended.

Haskell code:

```
import Data.List (minimumBy)
import Data.Ord (comparing)
fst3 (a,b,c) = a
rollDie die@[left,right,top,bottom,front,back] move
| move == "U" = [left,right,front,back,bottom,top]
| move == "D" = [left,right,back,front,top,bottom]
| move == "L" = [top,bottom,right,left,front,back]
| move == "R" = [bottom,top,left,right,front,back]
dieTop die = die!!2
leftBorder = max 0 (min startColumn endColumn - 1)
rightBorder = min columns (max startColumn endColumn + 1)
topBorder = endRow
bottomBorder = startRow
infinity = 6*rows*columns
rows = 10
columns = 10
startRow = 1
startColumn = 1
endRow = 6
endColumn = 6
dieStartingOrientation = [4,3,1,6,2,5] --left,right,top,bottom,front,back
q i j visited
| i < bottomBorder || i > topBorder
|| j < leftBorder || j > rightBorder = (infinity,[1..6],[])
| i == startRow && j == startColumn = (dieTop dieStartingOrientation,dieStartingOrientation,[])
| otherwise = (pathCost + dieTop newDieState,newDieState,move:moves)
where previous
| visited == (i, j-1) = zip [q i (j+1) (i,j),q (i-1) j (i,j)] ["L","U"]
| visited == (i, j+1) = zip [q i (j-1) (i,j),q (i-1) j (i,j)] ["R","U"]
| otherwise = zip [q i (j-1) (i,j),q i (j+1) (i,j),q (i-1) j (i,j)] ["R","L","U"]
((pathCost,dieState,moves),move) = minimumBy (comparing (fst3 . fst)) previous
newDieState = rollDie dieState move
main = putStrLn (show $ q endRow endColumn (endRow,endColumn))
```